Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
Eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that exist at the kilo-megabase scale. Here Cattoni et al. combine super-resolution microscopy with DNA-labeling methods to quantify absolute frequencies of interactions within TADs.
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Nature Portfolio
2017
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oai:doaj.org-article:e60cd11935584fd2817e693003fc822f2021-12-02T16:51:52ZSingle-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions10.1038/s41467-017-01962-x2041-1723https://doaj.org/article/e60cd11935584fd2817e693003fc822f2017-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-01962-xhttps://doaj.org/toc/2041-1723Eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that exist at the kilo-megabase scale. Here Cattoni et al. combine super-resolution microscopy with DNA-labeling methods to quantify absolute frequencies of interactions within TADs.Diego I. CattoniAndrés M. Cardozo GizziMariya GeorgievaMarco Di StefanoAlessandro ValeriDelphine ChamoussetChristophe HoubronStephanie DéjardinJean-Bernard FicheInma GonzálezJia-Ming ChangThomas SextonMarc A. Marti-RenomFrédéric BantigniesGiacomo CavalliMarcelo NollmannNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-10 (2017) |
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Science Q Diego I. Cattoni Andrés M. Cardozo Gizzi Mariya Georgieva Marco Di Stefano Alessandro Valeri Delphine Chamousset Christophe Houbron Stephanie Déjardin Jean-Bernard Fiche Inma González Jia-Ming Chang Thomas Sexton Marc A. Marti-Renom Frédéric Bantignies Giacomo Cavalli Marcelo Nollmann Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
description |
Eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that exist at the kilo-megabase scale. Here Cattoni et al. combine super-resolution microscopy with DNA-labeling methods to quantify absolute frequencies of interactions within TADs. |
format |
article |
author |
Diego I. Cattoni Andrés M. Cardozo Gizzi Mariya Georgieva Marco Di Stefano Alessandro Valeri Delphine Chamousset Christophe Houbron Stephanie Déjardin Jean-Bernard Fiche Inma González Jia-Ming Chang Thomas Sexton Marc A. Marti-Renom Frédéric Bantignies Giacomo Cavalli Marcelo Nollmann |
author_facet |
Diego I. Cattoni Andrés M. Cardozo Gizzi Mariya Georgieva Marco Di Stefano Alessandro Valeri Delphine Chamousset Christophe Houbron Stephanie Déjardin Jean-Bernard Fiche Inma González Jia-Ming Chang Thomas Sexton Marc A. Marti-Renom Frédéric Bantignies Giacomo Cavalli Marcelo Nollmann |
author_sort |
Diego I. Cattoni |
title |
Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
title_short |
Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
title_full |
Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
title_fullStr |
Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
title_full_unstemmed |
Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
title_sort |
single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions |
publisher |
Nature Portfolio |
publishDate |
2017 |
url |
https://doaj.org/article/e60cd11935584fd2817e693003fc822f |
work_keys_str_mv |
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